/** * \file * * \brief SAM DAC * * Copyright (c) 2016-2018 Microchip Technology Inc. and its subsidiaries. * * \asf_license_start * * \page License * * Subject to your compliance with these terms, you may use Microchip * software and any derivatives exclusively with Microchip products. * It is your responsibility to comply with third party license terms applicable * to your use of third party software (including open source software) that * may accompany Microchip software. * * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES, * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE, * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY, * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE. TO THE FULLEST EXTENT * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY, * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE. * * \asf_license_stop * */ #ifdef _SAME54_DAC_COMPONENT_ #ifndef _HRI_DAC_E54_H_INCLUDED_ #define _HRI_DAC_E54_H_INCLUDED_ #ifdef __cplusplus extern "C" { #endif #include #include #if defined(ENABLE_DAC_CRITICAL_SECTIONS) #define DAC_CRITICAL_SECTION_ENTER() CRITICAL_SECTION_ENTER() #define DAC_CRITICAL_SECTION_LEAVE() CRITICAL_SECTION_LEAVE() #else #define DAC_CRITICAL_SECTION_ENTER() #define DAC_CRITICAL_SECTION_LEAVE() #endif typedef uint16_t hri_dac_dacctrl_reg_t; typedef uint16_t hri_dac_data_reg_t; typedef uint16_t hri_dac_databuf_reg_t; typedef uint16_t hri_dac_result_reg_t; typedef uint32_t hri_dac_syncbusy_reg_t; typedef uint8_t hri_dac_ctrla_reg_t; typedef uint8_t hri_dac_ctrlb_reg_t; typedef uint8_t hri_dac_dbgctrl_reg_t; typedef uint8_t hri_dac_evctrl_reg_t; typedef uint8_t hri_dac_intenset_reg_t; typedef uint8_t hri_dac_intflag_reg_t; typedef uint8_t hri_dac_status_reg_t; static inline void hri_dac_wait_for_sync(const void *const hw, hri_dac_syncbusy_reg_t reg) { while (((Dac *)hw)->SYNCBUSY.reg & reg) { }; } static inline bool hri_dac_is_syncing(const void *const hw, hri_dac_syncbusy_reg_t reg) { return ((Dac *)hw)->SYNCBUSY.reg & reg; } static inline bool hri_dac_get_INTFLAG_UNDERRUN0_bit(const void *const hw) { return (((Dac *)hw)->INTFLAG.reg & DAC_INTFLAG_UNDERRUN0) >> DAC_INTFLAG_UNDERRUN0_Pos; } static inline void hri_dac_clear_INTFLAG_UNDERRUN0_bit(const void *const hw) { ((Dac *)hw)->INTFLAG.reg = DAC_INTFLAG_UNDERRUN0; } static inline bool hri_dac_get_INTFLAG_UNDERRUN1_bit(const void *const hw) { return (((Dac *)hw)->INTFLAG.reg & DAC_INTFLAG_UNDERRUN1) >> DAC_INTFLAG_UNDERRUN1_Pos; } static inline void hri_dac_clear_INTFLAG_UNDERRUN1_bit(const void *const hw) { ((Dac *)hw)->INTFLAG.reg = DAC_INTFLAG_UNDERRUN1; } static inline bool hri_dac_get_INTFLAG_EMPTY0_bit(const void *const hw) { return (((Dac *)hw)->INTFLAG.reg & DAC_INTFLAG_EMPTY0) >> DAC_INTFLAG_EMPTY0_Pos; } static inline void hri_dac_clear_INTFLAG_EMPTY0_bit(const void *const hw) { ((Dac *)hw)->INTFLAG.reg = DAC_INTFLAG_EMPTY0; } static inline bool hri_dac_get_INTFLAG_EMPTY1_bit(const void *const hw) { return (((Dac *)hw)->INTFLAG.reg & DAC_INTFLAG_EMPTY1) >> DAC_INTFLAG_EMPTY1_Pos; } static inline void hri_dac_clear_INTFLAG_EMPTY1_bit(const void *const hw) { ((Dac *)hw)->INTFLAG.reg = DAC_INTFLAG_EMPTY1; } static inline bool hri_dac_get_INTFLAG_RESRDY0_bit(const void *const hw) { return (((Dac *)hw)->INTFLAG.reg & DAC_INTFLAG_RESRDY0) >> DAC_INTFLAG_RESRDY0_Pos; } static inline void hri_dac_clear_INTFLAG_RESRDY0_bit(const void *const hw) { ((Dac *)hw)->INTFLAG.reg = DAC_INTFLAG_RESRDY0; } static inline bool hri_dac_get_INTFLAG_RESRDY1_bit(const void *const hw) { return (((Dac *)hw)->INTFLAG.reg & DAC_INTFLAG_RESRDY1) >> DAC_INTFLAG_RESRDY1_Pos; } static inline void hri_dac_clear_INTFLAG_RESRDY1_bit(const void *const hw) { ((Dac *)hw)->INTFLAG.reg = DAC_INTFLAG_RESRDY1; } static inline bool hri_dac_get_INTFLAG_OVERRUN0_bit(const void *const hw) { return (((Dac *)hw)->INTFLAG.reg & DAC_INTFLAG_OVERRUN0) >> DAC_INTFLAG_OVERRUN0_Pos; } static inline void hri_dac_clear_INTFLAG_OVERRUN0_bit(const void *const hw) { ((Dac *)hw)->INTFLAG.reg = DAC_INTFLAG_OVERRUN0; } static inline bool hri_dac_get_INTFLAG_OVERRUN1_bit(const void *const hw) { return (((Dac *)hw)->INTFLAG.reg & DAC_INTFLAG_OVERRUN1) >> DAC_INTFLAG_OVERRUN1_Pos; } static inline void hri_dac_clear_INTFLAG_OVERRUN1_bit(const void *const hw) { ((Dac *)hw)->INTFLAG.reg = DAC_INTFLAG_OVERRUN1; } static inline bool hri_dac_get_interrupt_UNDERRUN0_bit(const void *const hw) { return (((Dac *)hw)->INTFLAG.reg & DAC_INTFLAG_UNDERRUN0) >> DAC_INTFLAG_UNDERRUN0_Pos; } static inline void hri_dac_clear_interrupt_UNDERRUN0_bit(const void *const hw) { ((Dac *)hw)->INTFLAG.reg = DAC_INTFLAG_UNDERRUN0; } static inline bool hri_dac_get_interrupt_UNDERRUN1_bit(const void *const hw) { return (((Dac *)hw)->INTFLAG.reg & DAC_INTFLAG_UNDERRUN1) >> DAC_INTFLAG_UNDERRUN1_Pos; } static inline void hri_dac_clear_interrupt_UNDERRUN1_bit(const void *const hw) { ((Dac *)hw)->INTFLAG.reg = DAC_INTFLAG_UNDERRUN1; } static inline bool hri_dac_get_interrupt_EMPTY0_bit(const void *const hw) { return (((Dac *)hw)->INTFLAG.reg & DAC_INTFLAG_EMPTY0) >> DAC_INTFLAG_EMPTY0_Pos; } static inline void hri_dac_clear_interrupt_EMPTY0_bit(const void *const hw) { ((Dac *)hw)->INTFLAG.reg = DAC_INTFLAG_EMPTY0; } static inline bool hri_dac_get_interrupt_EMPTY1_bit(const void *const hw) { return (((Dac *)hw)->INTFLAG.reg & DAC_INTFLAG_EMPTY1) >> DAC_INTFLAG_EMPTY1_Pos; } static inline void hri_dac_clear_interrupt_EMPTY1_bit(const void *const hw) { ((Dac *)hw)->INTFLAG.reg = DAC_INTFLAG_EMPTY1; } static inline bool hri_dac_get_interrupt_RESRDY0_bit(const void *const hw) { return (((Dac *)hw)->INTFLAG.reg & DAC_INTFLAG_RESRDY0) >> DAC_INTFLAG_RESRDY0_Pos; } static inline void hri_dac_clear_interrupt_RESRDY0_bit(const void *const hw) { ((Dac *)hw)->INTFLAG.reg = DAC_INTFLAG_RESRDY0; } static inline bool hri_dac_get_interrupt_RESRDY1_bit(const void *const hw) { return (((Dac *)hw)->INTFLAG.reg & DAC_INTFLAG_RESRDY1) >> DAC_INTFLAG_RESRDY1_Pos; } static inline void hri_dac_clear_interrupt_RESRDY1_bit(const void *const hw) { ((Dac *)hw)->INTFLAG.reg = DAC_INTFLAG_RESRDY1; } static inline bool hri_dac_get_interrupt_OVERRUN0_bit(const void *const hw) { return (((Dac *)hw)->INTFLAG.reg & DAC_INTFLAG_OVERRUN0) >> DAC_INTFLAG_OVERRUN0_Pos; } static inline void hri_dac_clear_interrupt_OVERRUN0_bit(const void *const hw) { ((Dac *)hw)->INTFLAG.reg = DAC_INTFLAG_OVERRUN0; } static inline bool hri_dac_get_interrupt_OVERRUN1_bit(const void *const hw) { return (((Dac *)hw)->INTFLAG.reg & DAC_INTFLAG_OVERRUN1) >> DAC_INTFLAG_OVERRUN1_Pos; } static inline void hri_dac_clear_interrupt_OVERRUN1_bit(const void *const hw) { ((Dac *)hw)->INTFLAG.reg = DAC_INTFLAG_OVERRUN1; } static inline hri_dac_intflag_reg_t hri_dac_get_INTFLAG_reg(const void *const hw, hri_dac_intflag_reg_t mask) { uint8_t tmp; tmp = ((Dac *)hw)->INTFLAG.reg; tmp &= mask; return tmp; } static inline hri_dac_intflag_reg_t hri_dac_read_INTFLAG_reg(const void *const hw) { return ((Dac *)hw)->INTFLAG.reg; } static inline void hri_dac_clear_INTFLAG_reg(const void *const hw, hri_dac_intflag_reg_t mask) { ((Dac *)hw)->INTFLAG.reg = mask; } static inline void hri_dac_set_INTEN_UNDERRUN0_bit(const void *const hw) { ((Dac *)hw)->INTENSET.reg = DAC_INTENSET_UNDERRUN0; } static inline bool hri_dac_get_INTEN_UNDERRUN0_bit(const void *const hw) { return (((Dac *)hw)->INTENSET.reg & DAC_INTENSET_UNDERRUN0) >> DAC_INTENSET_UNDERRUN0_Pos; } static inline void hri_dac_write_INTEN_UNDERRUN0_bit(const void *const hw, bool value) { if (value == 0x0) { ((Dac *)hw)->INTENCLR.reg = DAC_INTENSET_UNDERRUN0; } else { ((Dac *)hw)->INTENSET.reg = DAC_INTENSET_UNDERRUN0; } } static inline void hri_dac_clear_INTEN_UNDERRUN0_bit(const void *const hw) { ((Dac *)hw)->INTENCLR.reg = DAC_INTENSET_UNDERRUN0; } static inline void hri_dac_set_INTEN_UNDERRUN1_bit(const void *const hw) { ((Dac *)hw)->INTENSET.reg = DAC_INTENSET_UNDERRUN1; } static inline bool hri_dac_get_INTEN_UNDERRUN1_bit(const void *const hw) { return (((Dac *)hw)->INTENSET.reg & DAC_INTENSET_UNDERRUN1) >> DAC_INTENSET_UNDERRUN1_Pos; } static inline void hri_dac_write_INTEN_UNDERRUN1_bit(const void *const hw, bool value) { if (value == 0x0) { ((Dac *)hw)->INTENCLR.reg = DAC_INTENSET_UNDERRUN1; } else { ((Dac *)hw)->INTENSET.reg = DAC_INTENSET_UNDERRUN1; } } static inline void hri_dac_clear_INTEN_UNDERRUN1_bit(const void *const hw) { ((Dac *)hw)->INTENCLR.reg = DAC_INTENSET_UNDERRUN1; } static inline void hri_dac_set_INTEN_EMPTY0_bit(const void *const hw) { ((Dac *)hw)->INTENSET.reg = DAC_INTENSET_EMPTY0; } static inline bool hri_dac_get_INTEN_EMPTY0_bit(const void *const hw) { return (((Dac *)hw)->INTENSET.reg & DAC_INTENSET_EMPTY0) >> DAC_INTENSET_EMPTY0_Pos; } static inline void hri_dac_write_INTEN_EMPTY0_bit(const void *const hw, bool value) { if (value == 0x0) { ((Dac *)hw)->INTENCLR.reg = DAC_INTENSET_EMPTY0; } else { ((Dac *)hw)->INTENSET.reg = DAC_INTENSET_EMPTY0; } } static inline void hri_dac_clear_INTEN_EMPTY0_bit(const void *const hw) { ((Dac *)hw)->INTENCLR.reg = DAC_INTENSET_EMPTY0; } static inline void hri_dac_set_INTEN_EMPTY1_bit(const void *const hw) { ((Dac *)hw)->INTENSET.reg = DAC_INTENSET_EMPTY1; } static inline bool hri_dac_get_INTEN_EMPTY1_bit(const void *const hw) { return (((Dac *)hw)->INTENSET.reg & DAC_INTENSET_EMPTY1) >> DAC_INTENSET_EMPTY1_Pos; } static inline void hri_dac_write_INTEN_EMPTY1_bit(const void *const hw, bool value) { if (value == 0x0) { ((Dac *)hw)->INTENCLR.reg = DAC_INTENSET_EMPTY1; } else { ((Dac *)hw)->INTENSET.reg = DAC_INTENSET_EMPTY1; } } static inline void hri_dac_clear_INTEN_EMPTY1_bit(const void *const hw) { ((Dac *)hw)->INTENCLR.reg = DAC_INTENSET_EMPTY1; } static inline void hri_dac_set_INTEN_RESRDY0_bit(const void *const hw) { ((Dac *)hw)->INTENSET.reg = DAC_INTENSET_RESRDY0; } static inline bool hri_dac_get_INTEN_RESRDY0_bit(const void *const hw) { return (((Dac *)hw)->INTENSET.reg & DAC_INTENSET_RESRDY0) >> DAC_INTENSET_RESRDY0_Pos; } static inline void hri_dac_write_INTEN_RESRDY0_bit(const void *const hw, bool value) { if (value == 0x0) { ((Dac *)hw)->INTENCLR.reg = DAC_INTENSET_RESRDY0; } else { ((Dac *)hw)->INTENSET.reg = DAC_INTENSET_RESRDY0; } } static inline void hri_dac_clear_INTEN_RESRDY0_bit(const void *const hw) { ((Dac *)hw)->INTENCLR.reg = DAC_INTENSET_RESRDY0; } static inline void hri_dac_set_INTEN_RESRDY1_bit(const void *const hw) { ((Dac *)hw)->INTENSET.reg = DAC_INTENSET_RESRDY1; } static inline bool hri_dac_get_INTEN_RESRDY1_bit(const void *const hw) { return (((Dac *)hw)->INTENSET.reg & DAC_INTENSET_RESRDY1) >> DAC_INTENSET_RESRDY1_Pos; } static inline void hri_dac_write_INTEN_RESRDY1_bit(const void *const hw, bool value) { if (value == 0x0) { ((Dac *)hw)->INTENCLR.reg = DAC_INTENSET_RESRDY1; } else { ((Dac *)hw)->INTENSET.reg = DAC_INTENSET_RESRDY1; } } static inline void hri_dac_clear_INTEN_RESRDY1_bit(const void *const hw) { ((Dac *)hw)->INTENCLR.reg = DAC_INTENSET_RESRDY1; } static inline void hri_dac_set_INTEN_OVERRUN0_bit(const void *const hw) { ((Dac *)hw)->INTENSET.reg = DAC_INTENSET_OVERRUN0; } static inline bool hri_dac_get_INTEN_OVERRUN0_bit(const void *const hw) { return (((Dac *)hw)->INTENSET.reg & DAC_INTENSET_OVERRUN0) >> DAC_INTENSET_OVERRUN0_Pos; } static inline void hri_dac_write_INTEN_OVERRUN0_bit(const void *const hw, bool value) { if (value == 0x0) { ((Dac *)hw)->INTENCLR.reg = DAC_INTENSET_OVERRUN0; } else { ((Dac *)hw)->INTENSET.reg = DAC_INTENSET_OVERRUN0; } } static inline void hri_dac_clear_INTEN_OVERRUN0_bit(const void *const hw) { ((Dac *)hw)->INTENCLR.reg = DAC_INTENSET_OVERRUN0; } static inline void hri_dac_set_INTEN_OVERRUN1_bit(const void *const hw) { ((Dac *)hw)->INTENSET.reg = DAC_INTENSET_OVERRUN1; } static inline bool hri_dac_get_INTEN_OVERRUN1_bit(const void *const hw) { return (((Dac *)hw)->INTENSET.reg & DAC_INTENSET_OVERRUN1) >> DAC_INTENSET_OVERRUN1_Pos; } static inline void hri_dac_write_INTEN_OVERRUN1_bit(const void *const hw, bool value) { if (value == 0x0) { ((Dac *)hw)->INTENCLR.reg = DAC_INTENSET_OVERRUN1; } else { ((Dac *)hw)->INTENSET.reg = DAC_INTENSET_OVERRUN1; } } static inline void hri_dac_clear_INTEN_OVERRUN1_bit(const void *const hw) { ((Dac *)hw)->INTENCLR.reg = DAC_INTENSET_OVERRUN1; } static inline void hri_dac_set_INTEN_reg(const void *const hw, hri_dac_intenset_reg_t mask) { ((Dac *)hw)->INTENSET.reg = mask; } static inline hri_dac_intenset_reg_t hri_dac_get_INTEN_reg(const void *const hw, hri_dac_intenset_reg_t mask) { uint8_t tmp; tmp = ((Dac *)hw)->INTENSET.reg; tmp &= mask; return tmp; } static inline hri_dac_intenset_reg_t hri_dac_read_INTEN_reg(const void *const hw) { return ((Dac *)hw)->INTENSET.reg; } static inline void hri_dac_write_INTEN_reg(const void *const hw, hri_dac_intenset_reg_t data) { ((Dac *)hw)->INTENSET.reg = data; ((Dac *)hw)->INTENCLR.reg = ~data; } static inline void hri_dac_clear_INTEN_reg(const void *const hw, hri_dac_intenset_reg_t mask) { ((Dac *)hw)->INTENCLR.reg = mask; } static inline bool hri_dac_get_STATUS_READY0_bit(const void *const hw) { return (((Dac *)hw)->STATUS.reg & DAC_STATUS_READY0) >> DAC_STATUS_READY0_Pos; } static inline bool hri_dac_get_STATUS_READY1_bit(const void *const hw) { return (((Dac *)hw)->STATUS.reg & DAC_STATUS_READY1) >> DAC_STATUS_READY1_Pos; } static inline bool hri_dac_get_STATUS_EOC0_bit(const void *const hw) { return (((Dac *)hw)->STATUS.reg & DAC_STATUS_EOC0) >> DAC_STATUS_EOC0_Pos; } static inline bool hri_dac_get_STATUS_EOC1_bit(const void *const hw) { return (((Dac *)hw)->STATUS.reg & DAC_STATUS_EOC1) >> DAC_STATUS_EOC1_Pos; } static inline hri_dac_status_reg_t hri_dac_get_STATUS_reg(const void *const hw, hri_dac_status_reg_t mask) { uint8_t tmp; tmp = ((Dac *)hw)->STATUS.reg; tmp &= mask; return tmp; } static inline hri_dac_status_reg_t hri_dac_read_STATUS_reg(const void *const hw) { return ((Dac *)hw)->STATUS.reg; } static inline bool hri_dac_get_SYNCBUSY_SWRST_bit(const void *const hw) { return (((Dac *)hw)->SYNCBUSY.reg & DAC_SYNCBUSY_SWRST) >> DAC_SYNCBUSY_SWRST_Pos; } static inline bool hri_dac_get_SYNCBUSY_ENABLE_bit(const void *const hw) { return (((Dac *)hw)->SYNCBUSY.reg & DAC_SYNCBUSY_ENABLE) >> DAC_SYNCBUSY_ENABLE_Pos; } static inline bool hri_dac_get_SYNCBUSY_DATA0_bit(const void *const hw) { return (((Dac *)hw)->SYNCBUSY.reg & DAC_SYNCBUSY_DATA0) >> DAC_SYNCBUSY_DATA0_Pos; } static inline bool hri_dac_get_SYNCBUSY_DATA1_bit(const void *const hw) { return (((Dac *)hw)->SYNCBUSY.reg & DAC_SYNCBUSY_DATA1) >> DAC_SYNCBUSY_DATA1_Pos; } static inline bool hri_dac_get_SYNCBUSY_DATABUF0_bit(const void *const hw) { return (((Dac *)hw)->SYNCBUSY.reg & DAC_SYNCBUSY_DATABUF0) >> DAC_SYNCBUSY_DATABUF0_Pos; } static inline bool hri_dac_get_SYNCBUSY_DATABUF1_bit(const void *const hw) { return (((Dac *)hw)->SYNCBUSY.reg & DAC_SYNCBUSY_DATABUF1) >> DAC_SYNCBUSY_DATABUF1_Pos; } static inline hri_dac_syncbusy_reg_t hri_dac_get_SYNCBUSY_reg(const void *const hw, hri_dac_syncbusy_reg_t mask) { uint32_t tmp; tmp = ((Dac *)hw)->SYNCBUSY.reg; tmp &= mask; return tmp; } static inline hri_dac_syncbusy_reg_t hri_dac_read_SYNCBUSY_reg(const void *const hw) { return ((Dac *)hw)->SYNCBUSY.reg; } static inline hri_dac_result_reg_t hri_dac_get_RESULT_RESULT_bf(const void *const hw, uint8_t index, hri_dac_result_reg_t mask) { return (((Dac *)hw)->RESULT[index].reg & DAC_RESULT_RESULT(mask)) >> DAC_RESULT_RESULT_Pos; } static inline hri_dac_result_reg_t hri_dac_read_RESULT_RESULT_bf(const void *const hw, uint8_t index) { return (((Dac *)hw)->RESULT[index].reg & DAC_RESULT_RESULT_Msk) >> DAC_RESULT_RESULT_Pos; } static inline hri_dac_result_reg_t hri_dac_get_RESULT_reg(const void *const hw, uint8_t index, hri_dac_result_reg_t mask) { uint16_t tmp; tmp = ((Dac *)hw)->RESULT[index].reg; tmp &= mask; return tmp; } static inline hri_dac_result_reg_t hri_dac_read_RESULT_reg(const void *const hw, uint8_t index) { return ((Dac *)hw)->RESULT[index].reg; } static inline void hri_dac_set_CTRLA_SWRST_bit(const void *const hw) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->CTRLA.reg |= DAC_CTRLA_SWRST; hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_SWRST); DAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dac_get_CTRLA_SWRST_bit(const void *const hw) { uint8_t tmp; hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_SWRST); tmp = ((Dac *)hw)->CTRLA.reg; tmp = (tmp & DAC_CTRLA_SWRST) >> DAC_CTRLA_SWRST_Pos; return (bool)tmp; } static inline void hri_dac_set_CTRLA_ENABLE_bit(const void *const hw) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->CTRLA.reg |= DAC_CTRLA_ENABLE; hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_SWRST | DAC_SYNCBUSY_ENABLE); DAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dac_get_CTRLA_ENABLE_bit(const void *const hw) { uint8_t tmp; hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_SWRST | DAC_SYNCBUSY_ENABLE); tmp = ((Dac *)hw)->CTRLA.reg; tmp = (tmp & DAC_CTRLA_ENABLE) >> DAC_CTRLA_ENABLE_Pos; return (bool)tmp; } static inline void hri_dac_write_CTRLA_ENABLE_bit(const void *const hw, bool value) { uint8_t tmp; DAC_CRITICAL_SECTION_ENTER(); tmp = ((Dac *)hw)->CTRLA.reg; tmp &= ~DAC_CTRLA_ENABLE; tmp |= value << DAC_CTRLA_ENABLE_Pos; ((Dac *)hw)->CTRLA.reg = tmp; hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_SWRST | DAC_SYNCBUSY_ENABLE); DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_clear_CTRLA_ENABLE_bit(const void *const hw) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->CTRLA.reg &= ~DAC_CTRLA_ENABLE; hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_SWRST | DAC_SYNCBUSY_ENABLE); DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_toggle_CTRLA_ENABLE_bit(const void *const hw) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->CTRLA.reg ^= DAC_CTRLA_ENABLE; hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_SWRST | DAC_SYNCBUSY_ENABLE); DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_set_CTRLA_reg(const void *const hw, hri_dac_ctrla_reg_t mask) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->CTRLA.reg |= mask; hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_SWRST | DAC_SYNCBUSY_ENABLE); DAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dac_ctrla_reg_t hri_dac_get_CTRLA_reg(const void *const hw, hri_dac_ctrla_reg_t mask) { uint8_t tmp; hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_SWRST | DAC_SYNCBUSY_ENABLE); tmp = ((Dac *)hw)->CTRLA.reg; tmp &= mask; return tmp; } static inline void hri_dac_write_CTRLA_reg(const void *const hw, hri_dac_ctrla_reg_t data) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->CTRLA.reg = data; hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_SWRST | DAC_SYNCBUSY_ENABLE); DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_clear_CTRLA_reg(const void *const hw, hri_dac_ctrla_reg_t mask) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->CTRLA.reg &= ~mask; hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_SWRST | DAC_SYNCBUSY_ENABLE); DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_toggle_CTRLA_reg(const void *const hw, hri_dac_ctrla_reg_t mask) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->CTRLA.reg ^= mask; hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_SWRST | DAC_SYNCBUSY_ENABLE); DAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dac_ctrla_reg_t hri_dac_read_CTRLA_reg(const void *const hw) { hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_SWRST | DAC_SYNCBUSY_ENABLE); return ((Dac *)hw)->CTRLA.reg; } static inline void hri_dac_set_CTRLB_DIFF_bit(const void *const hw) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->CTRLB.reg |= DAC_CTRLB_DIFF; DAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dac_get_CTRLB_DIFF_bit(const void *const hw) { uint8_t tmp; tmp = ((Dac *)hw)->CTRLB.reg; tmp = (tmp & DAC_CTRLB_DIFF) >> DAC_CTRLB_DIFF_Pos; return (bool)tmp; } static inline void hri_dac_write_CTRLB_DIFF_bit(const void *const hw, bool value) { uint8_t tmp; DAC_CRITICAL_SECTION_ENTER(); tmp = ((Dac *)hw)->CTRLB.reg; tmp &= ~DAC_CTRLB_DIFF; tmp |= value << DAC_CTRLB_DIFF_Pos; ((Dac *)hw)->CTRLB.reg = tmp; DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_clear_CTRLB_DIFF_bit(const void *const hw) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->CTRLB.reg &= ~DAC_CTRLB_DIFF; DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_toggle_CTRLB_DIFF_bit(const void *const hw) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->CTRLB.reg ^= DAC_CTRLB_DIFF; DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_set_CTRLB_REFSEL_bf(const void *const hw, hri_dac_ctrlb_reg_t mask) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->CTRLB.reg |= DAC_CTRLB_REFSEL(mask); DAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dac_ctrlb_reg_t hri_dac_get_CTRLB_REFSEL_bf(const void *const hw, hri_dac_ctrlb_reg_t mask) { uint8_t tmp; tmp = ((Dac *)hw)->CTRLB.reg; tmp = (tmp & DAC_CTRLB_REFSEL(mask)) >> DAC_CTRLB_REFSEL_Pos; return tmp; } static inline void hri_dac_write_CTRLB_REFSEL_bf(const void *const hw, hri_dac_ctrlb_reg_t data) { uint8_t tmp; DAC_CRITICAL_SECTION_ENTER(); tmp = ((Dac *)hw)->CTRLB.reg; tmp &= ~DAC_CTRLB_REFSEL_Msk; tmp |= DAC_CTRLB_REFSEL(data); ((Dac *)hw)->CTRLB.reg = tmp; DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_clear_CTRLB_REFSEL_bf(const void *const hw, hri_dac_ctrlb_reg_t mask) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->CTRLB.reg &= ~DAC_CTRLB_REFSEL(mask); DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_toggle_CTRLB_REFSEL_bf(const void *const hw, hri_dac_ctrlb_reg_t mask) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->CTRLB.reg ^= DAC_CTRLB_REFSEL(mask); DAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dac_ctrlb_reg_t hri_dac_read_CTRLB_REFSEL_bf(const void *const hw) { uint8_t tmp; tmp = ((Dac *)hw)->CTRLB.reg; tmp = (tmp & DAC_CTRLB_REFSEL_Msk) >> DAC_CTRLB_REFSEL_Pos; return tmp; } static inline void hri_dac_set_CTRLB_reg(const void *const hw, hri_dac_ctrlb_reg_t mask) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->CTRLB.reg |= mask; DAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dac_ctrlb_reg_t hri_dac_get_CTRLB_reg(const void *const hw, hri_dac_ctrlb_reg_t mask) { uint8_t tmp; tmp = ((Dac *)hw)->CTRLB.reg; tmp &= mask; return tmp; } static inline void hri_dac_write_CTRLB_reg(const void *const hw, hri_dac_ctrlb_reg_t data) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->CTRLB.reg = data; DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_clear_CTRLB_reg(const void *const hw, hri_dac_ctrlb_reg_t mask) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->CTRLB.reg &= ~mask; DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_toggle_CTRLB_reg(const void *const hw, hri_dac_ctrlb_reg_t mask) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->CTRLB.reg ^= mask; DAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dac_ctrlb_reg_t hri_dac_read_CTRLB_reg(const void *const hw) { return ((Dac *)hw)->CTRLB.reg; } static inline void hri_dac_set_EVCTRL_STARTEI0_bit(const void *const hw) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->EVCTRL.reg |= DAC_EVCTRL_STARTEI0; DAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dac_get_EVCTRL_STARTEI0_bit(const void *const hw) { uint8_t tmp; tmp = ((Dac *)hw)->EVCTRL.reg; tmp = (tmp & DAC_EVCTRL_STARTEI0) >> DAC_EVCTRL_STARTEI0_Pos; return (bool)tmp; } static inline void hri_dac_write_EVCTRL_STARTEI0_bit(const void *const hw, bool value) { uint8_t tmp; DAC_CRITICAL_SECTION_ENTER(); tmp = ((Dac *)hw)->EVCTRL.reg; tmp &= ~DAC_EVCTRL_STARTEI0; tmp |= value << DAC_EVCTRL_STARTEI0_Pos; ((Dac *)hw)->EVCTRL.reg = tmp; DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_clear_EVCTRL_STARTEI0_bit(const void *const hw) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->EVCTRL.reg &= ~DAC_EVCTRL_STARTEI0; DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_toggle_EVCTRL_STARTEI0_bit(const void *const hw) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->EVCTRL.reg ^= DAC_EVCTRL_STARTEI0; DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_set_EVCTRL_STARTEI1_bit(const void *const hw) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->EVCTRL.reg |= DAC_EVCTRL_STARTEI1; DAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dac_get_EVCTRL_STARTEI1_bit(const void *const hw) { uint8_t tmp; tmp = ((Dac *)hw)->EVCTRL.reg; tmp = (tmp & DAC_EVCTRL_STARTEI1) >> DAC_EVCTRL_STARTEI1_Pos; return (bool)tmp; } static inline void hri_dac_write_EVCTRL_STARTEI1_bit(const void *const hw, bool value) { uint8_t tmp; DAC_CRITICAL_SECTION_ENTER(); tmp = ((Dac *)hw)->EVCTRL.reg; tmp &= ~DAC_EVCTRL_STARTEI1; tmp |= value << DAC_EVCTRL_STARTEI1_Pos; ((Dac *)hw)->EVCTRL.reg = tmp; DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_clear_EVCTRL_STARTEI1_bit(const void *const hw) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->EVCTRL.reg &= ~DAC_EVCTRL_STARTEI1; DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_toggle_EVCTRL_STARTEI1_bit(const void *const hw) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->EVCTRL.reg ^= DAC_EVCTRL_STARTEI1; DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_set_EVCTRL_EMPTYEO0_bit(const void *const hw) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->EVCTRL.reg |= DAC_EVCTRL_EMPTYEO0; DAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dac_get_EVCTRL_EMPTYEO0_bit(const void *const hw) { uint8_t tmp; tmp = ((Dac *)hw)->EVCTRL.reg; tmp = (tmp & DAC_EVCTRL_EMPTYEO0) >> DAC_EVCTRL_EMPTYEO0_Pos; return (bool)tmp; } static inline void hri_dac_write_EVCTRL_EMPTYEO0_bit(const void *const hw, bool value) { uint8_t tmp; DAC_CRITICAL_SECTION_ENTER(); tmp = ((Dac *)hw)->EVCTRL.reg; tmp &= ~DAC_EVCTRL_EMPTYEO0; tmp |= value << DAC_EVCTRL_EMPTYEO0_Pos; ((Dac *)hw)->EVCTRL.reg = tmp; DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_clear_EVCTRL_EMPTYEO0_bit(const void *const hw) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->EVCTRL.reg &= ~DAC_EVCTRL_EMPTYEO0; DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_toggle_EVCTRL_EMPTYEO0_bit(const void *const hw) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->EVCTRL.reg ^= DAC_EVCTRL_EMPTYEO0; DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_set_EVCTRL_EMPTYEO1_bit(const void *const hw) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->EVCTRL.reg |= DAC_EVCTRL_EMPTYEO1; DAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dac_get_EVCTRL_EMPTYEO1_bit(const void *const hw) { uint8_t tmp; tmp = ((Dac *)hw)->EVCTRL.reg; tmp = (tmp & DAC_EVCTRL_EMPTYEO1) >> DAC_EVCTRL_EMPTYEO1_Pos; return (bool)tmp; } static inline void hri_dac_write_EVCTRL_EMPTYEO1_bit(const void *const hw, bool value) { uint8_t tmp; DAC_CRITICAL_SECTION_ENTER(); tmp = ((Dac *)hw)->EVCTRL.reg; tmp &= ~DAC_EVCTRL_EMPTYEO1; tmp |= value << DAC_EVCTRL_EMPTYEO1_Pos; ((Dac *)hw)->EVCTRL.reg = tmp; DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_clear_EVCTRL_EMPTYEO1_bit(const void *const hw) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->EVCTRL.reg &= ~DAC_EVCTRL_EMPTYEO1; DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_toggle_EVCTRL_EMPTYEO1_bit(const void *const hw) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->EVCTRL.reg ^= DAC_EVCTRL_EMPTYEO1; DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_set_EVCTRL_INVEI0_bit(const void *const hw) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->EVCTRL.reg |= DAC_EVCTRL_INVEI0; DAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dac_get_EVCTRL_INVEI0_bit(const void *const hw) { uint8_t tmp; tmp = ((Dac *)hw)->EVCTRL.reg; tmp = (tmp & DAC_EVCTRL_INVEI0) >> DAC_EVCTRL_INVEI0_Pos; return (bool)tmp; } static inline void hri_dac_write_EVCTRL_INVEI0_bit(const void *const hw, bool value) { uint8_t tmp; DAC_CRITICAL_SECTION_ENTER(); tmp = ((Dac *)hw)->EVCTRL.reg; tmp &= ~DAC_EVCTRL_INVEI0; tmp |= value << DAC_EVCTRL_INVEI0_Pos; ((Dac *)hw)->EVCTRL.reg = tmp; DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_clear_EVCTRL_INVEI0_bit(const void *const hw) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->EVCTRL.reg &= ~DAC_EVCTRL_INVEI0; DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_toggle_EVCTRL_INVEI0_bit(const void *const hw) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->EVCTRL.reg ^= DAC_EVCTRL_INVEI0; DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_set_EVCTRL_INVEI1_bit(const void *const hw) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->EVCTRL.reg |= DAC_EVCTRL_INVEI1; DAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dac_get_EVCTRL_INVEI1_bit(const void *const hw) { uint8_t tmp; tmp = ((Dac *)hw)->EVCTRL.reg; tmp = (tmp & DAC_EVCTRL_INVEI1) >> DAC_EVCTRL_INVEI1_Pos; return (bool)tmp; } static inline void hri_dac_write_EVCTRL_INVEI1_bit(const void *const hw, bool value) { uint8_t tmp; DAC_CRITICAL_SECTION_ENTER(); tmp = ((Dac *)hw)->EVCTRL.reg; tmp &= ~DAC_EVCTRL_INVEI1; tmp |= value << DAC_EVCTRL_INVEI1_Pos; ((Dac *)hw)->EVCTRL.reg = tmp; DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_clear_EVCTRL_INVEI1_bit(const void *const hw) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->EVCTRL.reg &= ~DAC_EVCTRL_INVEI1; DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_toggle_EVCTRL_INVEI1_bit(const void *const hw) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->EVCTRL.reg ^= DAC_EVCTRL_INVEI1; DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_set_EVCTRL_RESRDYEO0_bit(const void *const hw) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->EVCTRL.reg |= DAC_EVCTRL_RESRDYEO0; DAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dac_get_EVCTRL_RESRDYEO0_bit(const void *const hw) { uint8_t tmp; tmp = ((Dac *)hw)->EVCTRL.reg; tmp = (tmp & DAC_EVCTRL_RESRDYEO0) >> DAC_EVCTRL_RESRDYEO0_Pos; return (bool)tmp; } static inline void hri_dac_write_EVCTRL_RESRDYEO0_bit(const void *const hw, bool value) { uint8_t tmp; DAC_CRITICAL_SECTION_ENTER(); tmp = ((Dac *)hw)->EVCTRL.reg; tmp &= ~DAC_EVCTRL_RESRDYEO0; tmp |= value << DAC_EVCTRL_RESRDYEO0_Pos; ((Dac *)hw)->EVCTRL.reg = tmp; DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_clear_EVCTRL_RESRDYEO0_bit(const void *const hw) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->EVCTRL.reg &= ~DAC_EVCTRL_RESRDYEO0; DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_toggle_EVCTRL_RESRDYEO0_bit(const void *const hw) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->EVCTRL.reg ^= DAC_EVCTRL_RESRDYEO0; DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_set_EVCTRL_RESRDYEO1_bit(const void *const hw) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->EVCTRL.reg |= DAC_EVCTRL_RESRDYEO1; DAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dac_get_EVCTRL_RESRDYEO1_bit(const void *const hw) { uint8_t tmp; tmp = ((Dac *)hw)->EVCTRL.reg; tmp = (tmp & DAC_EVCTRL_RESRDYEO1) >> DAC_EVCTRL_RESRDYEO1_Pos; return (bool)tmp; } static inline void hri_dac_write_EVCTRL_RESRDYEO1_bit(const void *const hw, bool value) { uint8_t tmp; DAC_CRITICAL_SECTION_ENTER(); tmp = ((Dac *)hw)->EVCTRL.reg; tmp &= ~DAC_EVCTRL_RESRDYEO1; tmp |= value << DAC_EVCTRL_RESRDYEO1_Pos; ((Dac *)hw)->EVCTRL.reg = tmp; DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_clear_EVCTRL_RESRDYEO1_bit(const void *const hw) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->EVCTRL.reg &= ~DAC_EVCTRL_RESRDYEO1; DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_toggle_EVCTRL_RESRDYEO1_bit(const void *const hw) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->EVCTRL.reg ^= DAC_EVCTRL_RESRDYEO1; DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_set_EVCTRL_reg(const void *const hw, hri_dac_evctrl_reg_t mask) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->EVCTRL.reg |= mask; DAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dac_evctrl_reg_t hri_dac_get_EVCTRL_reg(const void *const hw, hri_dac_evctrl_reg_t mask) { uint8_t tmp; tmp = ((Dac *)hw)->EVCTRL.reg; tmp &= mask; return tmp; } static inline void hri_dac_write_EVCTRL_reg(const void *const hw, hri_dac_evctrl_reg_t data) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->EVCTRL.reg = data; DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_clear_EVCTRL_reg(const void *const hw, hri_dac_evctrl_reg_t mask) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->EVCTRL.reg &= ~mask; DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_toggle_EVCTRL_reg(const void *const hw, hri_dac_evctrl_reg_t mask) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->EVCTRL.reg ^= mask; DAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dac_evctrl_reg_t hri_dac_read_EVCTRL_reg(const void *const hw) { return ((Dac *)hw)->EVCTRL.reg; } static inline void hri_dac_set_DACCTRL_LEFTADJ_bit(const void *const hw, uint8_t index) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->DACCTRL[index].reg |= DAC_DACCTRL_LEFTADJ; hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_MASK); DAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dac_get_DACCTRL_LEFTADJ_bit(const void *const hw, uint8_t index) { uint16_t tmp; tmp = ((Dac *)hw)->DACCTRL[index].reg; tmp = (tmp & DAC_DACCTRL_LEFTADJ) >> DAC_DACCTRL_LEFTADJ_Pos; return (bool)tmp; } static inline void hri_dac_write_DACCTRL_LEFTADJ_bit(const void *const hw, uint8_t index, bool value) { uint16_t tmp; DAC_CRITICAL_SECTION_ENTER(); tmp = ((Dac *)hw)->DACCTRL[index].reg; tmp &= ~DAC_DACCTRL_LEFTADJ; tmp |= value << DAC_DACCTRL_LEFTADJ_Pos; ((Dac *)hw)->DACCTRL[index].reg = tmp; hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_MASK); DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_clear_DACCTRL_LEFTADJ_bit(const void *const hw, uint8_t index) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->DACCTRL[index].reg &= ~DAC_DACCTRL_LEFTADJ; hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_MASK); DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_toggle_DACCTRL_LEFTADJ_bit(const void *const hw, uint8_t index) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->DACCTRL[index].reg ^= DAC_DACCTRL_LEFTADJ; hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_MASK); DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_set_DACCTRL_ENABLE_bit(const void *const hw, uint8_t index) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->DACCTRL[index].reg |= DAC_DACCTRL_ENABLE; hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_ENABLE); DAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dac_get_DACCTRL_ENABLE_bit(const void *const hw, uint8_t index) { uint16_t tmp; hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_ENABLE); tmp = ((Dac *)hw)->DACCTRL[index].reg; tmp = (tmp & DAC_DACCTRL_ENABLE) >> DAC_DACCTRL_ENABLE_Pos; return (bool)tmp; } static inline void hri_dac_write_DACCTRL_ENABLE_bit(const void *const hw, uint8_t index, bool value) { uint16_t tmp; DAC_CRITICAL_SECTION_ENTER(); tmp = ((Dac *)hw)->DACCTRL[index].reg; tmp &= ~DAC_DACCTRL_ENABLE; tmp |= value << DAC_DACCTRL_ENABLE_Pos; ((Dac *)hw)->DACCTRL[index].reg = tmp; hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_ENABLE); DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_clear_DACCTRL_ENABLE_bit(const void *const hw, uint8_t index) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->DACCTRL[index].reg &= ~DAC_DACCTRL_ENABLE; hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_ENABLE); DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_toggle_DACCTRL_ENABLE_bit(const void *const hw, uint8_t index) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->DACCTRL[index].reg ^= DAC_DACCTRL_ENABLE; hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_ENABLE); DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_set_DACCTRL_FEXT_bit(const void *const hw, uint8_t index) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->DACCTRL[index].reg |= DAC_DACCTRL_FEXT; hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_MASK); DAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dac_get_DACCTRL_FEXT_bit(const void *const hw, uint8_t index) { uint16_t tmp; tmp = ((Dac *)hw)->DACCTRL[index].reg; tmp = (tmp & DAC_DACCTRL_FEXT) >> DAC_DACCTRL_FEXT_Pos; return (bool)tmp; } static inline void hri_dac_write_DACCTRL_FEXT_bit(const void *const hw, uint8_t index, bool value) { uint16_t tmp; DAC_CRITICAL_SECTION_ENTER(); tmp = ((Dac *)hw)->DACCTRL[index].reg; tmp &= ~DAC_DACCTRL_FEXT; tmp |= value << DAC_DACCTRL_FEXT_Pos; ((Dac *)hw)->DACCTRL[index].reg = tmp; hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_MASK); DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_clear_DACCTRL_FEXT_bit(const void *const hw, uint8_t index) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->DACCTRL[index].reg &= ~DAC_DACCTRL_FEXT; hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_MASK); DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_toggle_DACCTRL_FEXT_bit(const void *const hw, uint8_t index) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->DACCTRL[index].reg ^= DAC_DACCTRL_FEXT; hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_MASK); DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_set_DACCTRL_RUNSTDBY_bit(const void *const hw, uint8_t index) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->DACCTRL[index].reg |= DAC_DACCTRL_RUNSTDBY; hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_MASK); DAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dac_get_DACCTRL_RUNSTDBY_bit(const void *const hw, uint8_t index) { uint16_t tmp; tmp = ((Dac *)hw)->DACCTRL[index].reg; tmp = (tmp & DAC_DACCTRL_RUNSTDBY) >> DAC_DACCTRL_RUNSTDBY_Pos; return (bool)tmp; } static inline void hri_dac_write_DACCTRL_RUNSTDBY_bit(const void *const hw, uint8_t index, bool value) { uint16_t tmp; DAC_CRITICAL_SECTION_ENTER(); tmp = ((Dac *)hw)->DACCTRL[index].reg; tmp &= ~DAC_DACCTRL_RUNSTDBY; tmp |= value << DAC_DACCTRL_RUNSTDBY_Pos; ((Dac *)hw)->DACCTRL[index].reg = tmp; hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_MASK); DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_clear_DACCTRL_RUNSTDBY_bit(const void *const hw, uint8_t index) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->DACCTRL[index].reg &= ~DAC_DACCTRL_RUNSTDBY; hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_MASK); DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_toggle_DACCTRL_RUNSTDBY_bit(const void *const hw, uint8_t index) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->DACCTRL[index].reg ^= DAC_DACCTRL_RUNSTDBY; hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_MASK); DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_set_DACCTRL_DITHER_bit(const void *const hw, uint8_t index) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->DACCTRL[index].reg |= DAC_DACCTRL_DITHER; hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_MASK); DAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dac_get_DACCTRL_DITHER_bit(const void *const hw, uint8_t index) { uint16_t tmp; tmp = ((Dac *)hw)->DACCTRL[index].reg; tmp = (tmp & DAC_DACCTRL_DITHER) >> DAC_DACCTRL_DITHER_Pos; return (bool)tmp; } static inline void hri_dac_write_DACCTRL_DITHER_bit(const void *const hw, uint8_t index, bool value) { uint16_t tmp; DAC_CRITICAL_SECTION_ENTER(); tmp = ((Dac *)hw)->DACCTRL[index].reg; tmp &= ~DAC_DACCTRL_DITHER; tmp |= value << DAC_DACCTRL_DITHER_Pos; ((Dac *)hw)->DACCTRL[index].reg = tmp; hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_MASK); DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_clear_DACCTRL_DITHER_bit(const void *const hw, uint8_t index) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->DACCTRL[index].reg &= ~DAC_DACCTRL_DITHER; hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_MASK); DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_toggle_DACCTRL_DITHER_bit(const void *const hw, uint8_t index) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->DACCTRL[index].reg ^= DAC_DACCTRL_DITHER; hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_MASK); DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_set_DACCTRL_CCTRL_bf(const void *const hw, uint8_t index, hri_dac_dacctrl_reg_t mask) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->DACCTRL[index].reg |= DAC_DACCTRL_CCTRL(mask); hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_MASK); DAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dac_dacctrl_reg_t hri_dac_get_DACCTRL_CCTRL_bf(const void *const hw, uint8_t index, hri_dac_dacctrl_reg_t mask) { uint16_t tmp; tmp = ((Dac *)hw)->DACCTRL[index].reg; tmp = (tmp & DAC_DACCTRL_CCTRL(mask)) >> DAC_DACCTRL_CCTRL_Pos; return tmp; } static inline void hri_dac_write_DACCTRL_CCTRL_bf(const void *const hw, uint8_t index, hri_dac_dacctrl_reg_t data) { uint16_t tmp; DAC_CRITICAL_SECTION_ENTER(); tmp = ((Dac *)hw)->DACCTRL[index].reg; tmp &= ~DAC_DACCTRL_CCTRL_Msk; tmp |= DAC_DACCTRL_CCTRL(data); ((Dac *)hw)->DACCTRL[index].reg = tmp; hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_MASK); DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_clear_DACCTRL_CCTRL_bf(const void *const hw, uint8_t index, hri_dac_dacctrl_reg_t mask) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->DACCTRL[index].reg &= ~DAC_DACCTRL_CCTRL(mask); hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_MASK); DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_toggle_DACCTRL_CCTRL_bf(const void *const hw, uint8_t index, hri_dac_dacctrl_reg_t mask) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->DACCTRL[index].reg ^= DAC_DACCTRL_CCTRL(mask); hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_MASK); DAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dac_dacctrl_reg_t hri_dac_read_DACCTRL_CCTRL_bf(const void *const hw, uint8_t index) { uint16_t tmp; tmp = ((Dac *)hw)->DACCTRL[index].reg; tmp = (tmp & DAC_DACCTRL_CCTRL_Msk) >> DAC_DACCTRL_CCTRL_Pos; return tmp; } static inline void hri_dac_set_DACCTRL_REFRESH_bf(const void *const hw, uint8_t index, hri_dac_dacctrl_reg_t mask) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->DACCTRL[index].reg |= DAC_DACCTRL_REFRESH(mask); hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_MASK); DAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dac_dacctrl_reg_t hri_dac_get_DACCTRL_REFRESH_bf(const void *const hw, uint8_t index, hri_dac_dacctrl_reg_t mask) { uint16_t tmp; tmp = ((Dac *)hw)->DACCTRL[index].reg; tmp = (tmp & DAC_DACCTRL_REFRESH(mask)) >> DAC_DACCTRL_REFRESH_Pos; return tmp; } static inline void hri_dac_write_DACCTRL_REFRESH_bf(const void *const hw, uint8_t index, hri_dac_dacctrl_reg_t data) { uint16_t tmp; DAC_CRITICAL_SECTION_ENTER(); tmp = ((Dac *)hw)->DACCTRL[index].reg; tmp &= ~DAC_DACCTRL_REFRESH_Msk; tmp |= DAC_DACCTRL_REFRESH(data); ((Dac *)hw)->DACCTRL[index].reg = tmp; hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_MASK); DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_clear_DACCTRL_REFRESH_bf(const void *const hw, uint8_t index, hri_dac_dacctrl_reg_t mask) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->DACCTRL[index].reg &= ~DAC_DACCTRL_REFRESH(mask); hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_MASK); DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_toggle_DACCTRL_REFRESH_bf(const void *const hw, uint8_t index, hri_dac_dacctrl_reg_t mask) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->DACCTRL[index].reg ^= DAC_DACCTRL_REFRESH(mask); hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_MASK); DAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dac_dacctrl_reg_t hri_dac_read_DACCTRL_REFRESH_bf(const void *const hw, uint8_t index) { uint16_t tmp; tmp = ((Dac *)hw)->DACCTRL[index].reg; tmp = (tmp & DAC_DACCTRL_REFRESH_Msk) >> DAC_DACCTRL_REFRESH_Pos; return tmp; } static inline void hri_dac_set_DACCTRL_OSR_bf(const void *const hw, uint8_t index, hri_dac_dacctrl_reg_t mask) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->DACCTRL[index].reg |= DAC_DACCTRL_OSR(mask); hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_MASK); DAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dac_dacctrl_reg_t hri_dac_get_DACCTRL_OSR_bf(const void *const hw, uint8_t index, hri_dac_dacctrl_reg_t mask) { uint16_t tmp; tmp = ((Dac *)hw)->DACCTRL[index].reg; tmp = (tmp & DAC_DACCTRL_OSR(mask)) >> DAC_DACCTRL_OSR_Pos; return tmp; } static inline void hri_dac_write_DACCTRL_OSR_bf(const void *const hw, uint8_t index, hri_dac_dacctrl_reg_t data) { uint16_t tmp; DAC_CRITICAL_SECTION_ENTER(); tmp = ((Dac *)hw)->DACCTRL[index].reg; tmp &= ~DAC_DACCTRL_OSR_Msk; tmp |= DAC_DACCTRL_OSR(data); ((Dac *)hw)->DACCTRL[index].reg = tmp; hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_MASK); DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_clear_DACCTRL_OSR_bf(const void *const hw, uint8_t index, hri_dac_dacctrl_reg_t mask) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->DACCTRL[index].reg &= ~DAC_DACCTRL_OSR(mask); hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_MASK); DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_toggle_DACCTRL_OSR_bf(const void *const hw, uint8_t index, hri_dac_dacctrl_reg_t mask) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->DACCTRL[index].reg ^= DAC_DACCTRL_OSR(mask); hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_MASK); DAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dac_dacctrl_reg_t hri_dac_read_DACCTRL_OSR_bf(const void *const hw, uint8_t index) { uint16_t tmp; tmp = ((Dac *)hw)->DACCTRL[index].reg; tmp = (tmp & DAC_DACCTRL_OSR_Msk) >> DAC_DACCTRL_OSR_Pos; return tmp; } static inline void hri_dac_set_DACCTRL_reg(const void *const hw, uint8_t index, hri_dac_dacctrl_reg_t mask) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->DACCTRL[index].reg |= mask; hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_ENABLE); DAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dac_dacctrl_reg_t hri_dac_get_DACCTRL_reg(const void *const hw, uint8_t index, hri_dac_dacctrl_reg_t mask) { uint16_t tmp; hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_ENABLE); tmp = ((Dac *)hw)->DACCTRL[index].reg; tmp &= mask; return tmp; } static inline void hri_dac_write_DACCTRL_reg(const void *const hw, uint8_t index, hri_dac_dacctrl_reg_t data) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->DACCTRL[index].reg = data; hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_ENABLE); DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_clear_DACCTRL_reg(const void *const hw, uint8_t index, hri_dac_dacctrl_reg_t mask) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->DACCTRL[index].reg &= ~mask; hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_ENABLE); DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_toggle_DACCTRL_reg(const void *const hw, uint8_t index, hri_dac_dacctrl_reg_t mask) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->DACCTRL[index].reg ^= mask; hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_ENABLE); DAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dac_dacctrl_reg_t hri_dac_read_DACCTRL_reg(const void *const hw, uint8_t index) { hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_ENABLE); return ((Dac *)hw)->DACCTRL[index].reg; } static inline void hri_dac_set_DBGCTRL_DBGRUN_bit(const void *const hw) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->DBGCTRL.reg |= DAC_DBGCTRL_DBGRUN; DAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dac_get_DBGCTRL_DBGRUN_bit(const void *const hw) { uint8_t tmp; tmp = ((Dac *)hw)->DBGCTRL.reg; tmp = (tmp & DAC_DBGCTRL_DBGRUN) >> DAC_DBGCTRL_DBGRUN_Pos; return (bool)tmp; } static inline void hri_dac_write_DBGCTRL_DBGRUN_bit(const void *const hw, bool value) { uint8_t tmp; DAC_CRITICAL_SECTION_ENTER(); tmp = ((Dac *)hw)->DBGCTRL.reg; tmp &= ~DAC_DBGCTRL_DBGRUN; tmp |= value << DAC_DBGCTRL_DBGRUN_Pos; ((Dac *)hw)->DBGCTRL.reg = tmp; DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_clear_DBGCTRL_DBGRUN_bit(const void *const hw) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->DBGCTRL.reg &= ~DAC_DBGCTRL_DBGRUN; DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_toggle_DBGCTRL_DBGRUN_bit(const void *const hw) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->DBGCTRL.reg ^= DAC_DBGCTRL_DBGRUN; DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_set_DBGCTRL_reg(const void *const hw, hri_dac_dbgctrl_reg_t mask) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->DBGCTRL.reg |= mask; DAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dac_dbgctrl_reg_t hri_dac_get_DBGCTRL_reg(const void *const hw, hri_dac_dbgctrl_reg_t mask) { uint8_t tmp; tmp = ((Dac *)hw)->DBGCTRL.reg; tmp &= mask; return tmp; } static inline void hri_dac_write_DBGCTRL_reg(const void *const hw, hri_dac_dbgctrl_reg_t data) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->DBGCTRL.reg = data; DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_clear_DBGCTRL_reg(const void *const hw, hri_dac_dbgctrl_reg_t mask) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->DBGCTRL.reg &= ~mask; DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_toggle_DBGCTRL_reg(const void *const hw, hri_dac_dbgctrl_reg_t mask) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->DBGCTRL.reg ^= mask; DAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dac_dbgctrl_reg_t hri_dac_read_DBGCTRL_reg(const void *const hw) { return ((Dac *)hw)->DBGCTRL.reg; } static inline void hri_dac_write_DATA_reg(const void *const hw, uint8_t index, hri_dac_data_reg_t data) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->DATA[index].reg = data; hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_DATA0 | DAC_SYNCBUSY_DATA1); DAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dac_write_DATABUF_reg(const void *const hw, uint8_t index, hri_dac_databuf_reg_t data) { DAC_CRITICAL_SECTION_ENTER(); ((Dac *)hw)->DATABUF[index].reg = data; hri_dac_wait_for_sync(hw, DAC_SYNCBUSY_DATABUF0 | DAC_SYNCBUSY_DATABUF1); DAC_CRITICAL_SECTION_LEAVE(); } #ifdef __cplusplus } #endif #endif /* _HRI_DAC_E54_H_INCLUDED */ #endif /* _SAME54_DAC_COMPONENT_ */